预测 7-10 岁儿童最大呼吸压力的方程。
Predictive equations for maximal respiratory pressures of children aged 7-10.
机构信息
Universidade do Estado de Santa Catarina (UDESC), Florianópolis, SC, Brazil.
Universidade Estadual de Campinas - UNICAMP, Campinas, São Paulo, Brazil.
出版信息
Braz J Phys Ther. 2017 Jan-Feb;21(1):30-36. doi: 10.1016/j.bjpt.2016.04.002. Epub 2017 Jan 14.
BACKGROUND
Measurements of respiratory muscle strength are widely used for assessment in children; however, clearly defined predictive equations for the Brazilian pediatric population have yet to be established.
OBJECTIVE
To determine the prediction equations for maximal respiratory pressures in healthy children.
METHOD
Cross-sectional observational study with normal-weight students aged 7-10 years (n=399, 198 boys) with health attested by the (International Study of Asthma and Allergies in Childhood) questionnaire and medical history. Biometric data were evaluated (weight, height, and body mass index) as predictors. Spirometry and maximal expiratory pressure values were measured according to the recommendations of the American Thoracic Society. To verify data normality, the Shapiro-Wilk test was applied, and Pearson's test was used to verify the correlation between variables. The models were developed using simple linear regression and multivariate analyses. For all tests, the significance level was p<0.05.
RESULTS
Boys showed higher values of maximal respiratory pressures than girls, both increasing with age. For boys, these values had moderate correlation with age, weight, and height and weak correlation with body mass index. For girls, maximum inspiratory pressure had a weak correlation with age and moderate correlation with biometric data. Maximum expiratory pressure had a moderate correlation with age and biometric measures. The best predictive models were found in boys: Log(MIP)=1.577+0.006×weight (kg) (R=14.1%) and Log(MEP)=1.282+0.409×height (m) (R=13.9%); and for girls: Log(MIP)=1.548+0.006×weight (kg) (R=15.0%) and Log(MEP)=1.524+0.012×age (years)+0.005×weight (kg) (R=21.6%).
CONCLUSION
Prediction equations for maximal respiratory pressures were developed for boys and girls. The biometric measurements were shown to have a weak influence on the results.
背景
呼吸肌力量的测量广泛用于儿童评估;然而,尚未为巴西儿科人群制定明确界定的预测方程。
目的
确定健康儿童最大呼吸压力的预测方程。
方法
横断面观察研究,纳入年龄为 7-10 岁的正常体重学生(n=399,男 198 例),通过(国际儿童哮喘和过敏研究)问卷和病史证实健康。评估生物计量数据(体重、身高和体重指数)作为预测因子。根据美国胸科学会的建议测量肺活量和最大呼气压力值。为了验证数据正态性,应用 Shapiro-Wilk 检验,Pearson 检验用于验证变量之间的相关性。使用简单线性回归和多元分析建立模型。所有检验的显著性水平均为 p<0.05。
结果
男孩的最大呼吸压力值高于女孩,且随年龄增长而增加。对于男孩,这些值与年龄、体重和身高呈中度相关,与体重指数呈弱相关。对于女孩,最大吸气压力与年龄呈弱相关,与生物计量数据呈中度相关。最大呼气压力与年龄和生物计量测量呈中度相关。在男孩中发现了最佳预测模型:Log(MIP)=1.577+0.006×体重(kg)(R=14.1%)和 Log(MEP)=1.282+0.409×身高(m)(R=13.9%);对于女孩:Log(MIP)=1.548+0.006×体重(kg)(R=15.0%)和 Log(MEP)=1.524+0.012×年龄(岁)+0.005×体重(kg)(R=21.6%)。
结论
为男孩和女孩制定了最大呼吸压力的预测方程。生物计量测量结果显示对结果的影响较弱。
Zotero 插件